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What do we mean by cause in public health ? Constantine E. Frangakis Department of Biostatistics

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Presentation on theme: "What do we mean by cause in public health ? Constantine E. Frangakis Department of Biostatistics"— Presentation transcript:

1 What do we mean by cause in public health ? Constantine E. Frangakis Department of Biostatistics http://www.biostat.jhsph.edu/~cfrangak

2 2 Motivation Work and discussions by colleagues and speaker. Penrose, R (1989). The emperor’s new mind. Oxford.

3 3 Outline 1.Causal effects: what do we mean ? 2.Do we do research based on what we mean ? 3.Challenges to current approach

4 4 1.Causal effects: what do we mean ? Example (a) When we say: “More women will survive cancer because (thanks to) the newer screening method” we mean: “if women get screened with the new method, more of them will survive than if the same women get screened with the existing method”

5 5 Example (b) When we say: “Hormone replacement therapy (HRT) increases the risk of heart problems in (a group of) women” we hope we mean: “the group of women will have more heart problems if they get HRT versus if they do not get HRT”

6 6 Notes: By “causal effect”, in principle, we mean a comparison of outcomes if the same group of people at the same time were to be given two different treatments, so a Causal Effect is a result of an intervention. We cannot directly observe a causal effect, although we can estimate it under assumptions/or designs with comparable groups

7 7 2.Does usual statistical research reflect what we mean by causal effects ? We argue that it does not always, and that this impacts, ultimately, whether we really choose the right treatments. See an example

8 8. Example: a hypothetical 2- phase study on HRT Women in a 2-time study on effect of hormone replacement therapy (HRT) on heart problems Doctors randomize women to no HRT/ HRT, based on evidence of side-effects Is sustained HRT better for women, than no HRT ?  Three comparisons …

9 9. “Correct” comparison : from the data, we can show that : % of women with heart problems, if all were given HRT at both times = 60 % but % of women with heart problems, if none was given HRT at both times = 40% So, sustained HRT causes more heart problems

10 10. “Crude” comparison % of women with heart problems, among those who get HRT at both times 40% % of women with heart problems, among those who get no HRT 40% So, “crude comparison” gives equal treatments

11 11. “Adjusting” for side effects % of women with heart problems, among those who get HRT at both times, and have no side effects: 20% % of women with heart problems, among those who get no HRT, and have no side effects: 40% So, “adjustment” favours the worst treatment

12 12. “Adjusting for” side effects % of women with heart problems, among those who get HRT at both times, and have no side effects: 20% % of women with heart problems, among those who get no HRT, and have no side effects: 40% So, “adjustment” favours the worst treatment Note: the above “adjustment” as a regression is sometimes represented by: Y month 18 ~ side effects month 12 + treatment month 6 + treatment month 12

13 13 How did we get the correct answer ? By using what we mean by causal effect: the comparison of the two clinical outcomes of women, if they were given HRT versus if they were not. For a particular woman, these two outcomes are called “Potential Outcomes” (Rubin 74).

14 14 How did we get the correct answer ? By using what we mean by causal effect: the comparison of the two clinical outcomes of women, if they were given HRT versus if they were not. For a particular woman, these two outcomes are called “Potential Outcomes” (Rubin 74). What does it mean “we use” them if they are not observed ? It means we use them as unknowns with the (correct) logic, just as we can solve multiple equations with multiple unknowns

15 15 How did we get the correct answer ? By using what we mean by causal effect: the comparison of the two clinical outcomes of women, if they were given HRT versus if they were not. For a particular woman, these two outcomes are called “Potential Outcomes” (Rubin 74). What does it mean “we use” them if they are not observed ? It means we use them as unknowns with the (correct) logic, just as we can solve multiple equations with multiple unknowns Why does the usual “adjustment” generally fail ? Because the logic operates on the Potential Outcomes, and not directly on the observed data

16 16 3.Challenges to the meaning of causal effect used in public health The usual meaning has at least two key characteristics: 1) Consistency: a process evolves the same way whether we observe (or otherwise measure) the process or not 2) Temporality: the effect of a cause “happens” after the cause

17 17 On “consistency” The currently accepted physical theory for the microscopic level is quantum mechanics: according to quantum mechanics: a measurement (even if not by observation) causes a processes to change its values, but also a process obeys different rules when not being measured than when it is being measured

18 18 On “temporality” Most physical laws describe processes in time, but do not explain why time flows one way and not the other.

19 19 On “temporality” Most physical laws describe processes in time, but do not explain why time flows one way and not the other. The 2 nd thermodynamic law does address time flow, saying that systems will evolve to disorder

20 20 On “temporality” Most physical laws describe processes in time, but do not explain why time flows one way and not the other. The 2 nd thermodynamic law does address time flow, saying that systems will evolve to disorder In this law, cause and effect are reverse in time (teleologic): the cause is the future state of disorder, to which the present system is attracted.

21 21 Can it happen that a cause-effect be so different than what we “feel” ?

22 22 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

23 23 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

24 24 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

25 25 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

26 26 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

27 27 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise.

28 28 Can it happen that a cause-effect be so different than what we “feel” ? It happens very often ! Think of a child watching a movie of a car going right, and observing its wheels turning counter- clockwise. The child* would conclude that: “wheels spinning counter-clockwise” cause “the car to move right” ! * If the child learns about frequencies, it will understand differently.

29 29 How are these challenges relevant to public health ? Research in public health becomes more focused at the microscopic level Suppose a) causality at that level is dominated by teleologic laws, and b) we try to explain observations by a usual meaning of causal effects Then, our prediction abilities (e.g., for processes ultimately causing diseases) will reach a plateau, perhaps long before reaching the humanly explainable limit

30 30 Then, our prediction abilities (e.g., for processes ultimately causing diseases) will reach a plateau, perhaps before reaching the humanly explainable limit decreasing distance scale of studied process explainable processes limit limit if we ignore laws at micro-level

31 31 Remarks 1) By a Causal Effect in public health currently we mean a result of an intervention 2) Much of statistics addressing causal effects in public health is not based on what we mean, yet this can be done 3) with the focus of public health at the microscopic level, flexible concepts of causal effects, such as stemming from potential outcomes, become increasingly important for understanding and predicting processes

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